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MAT540 Week 8 Quiz 4 2017
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QUESTION 1

When using a linear programming model to solve the "diet" problem, the objective is generally to maximize profit.

True

False

2 points Saved

QUESTION 2

Fractional relationships between variables are permitted in the standard form of a linear program.

True

False

2 points Saved

QUESTION 3

A constraint for a linear programming problem can never have a zero as its right-hand-side value.

True

False

2 points Saved

QUESTION 4

A systematic approach to model formulation is to first construct the objective function before determining the decision variables.

True

False

2 points Saved

QUESTION 5

In formulating a typical diet problem using a linear programming model, we would expect most of the constraints to be related to calories.

True

False

2 points Saved

QUESTION 6

In a balanced transportation model, supply equals demand such that all constraints can be treated as equalities.

True

False

2 points Saved

QUESTION 7

The following types of constraints are ones that might be found in linear programming formulations:

1. ≤

2. =

3. >

1 and 2

2 and 3

1 and 3

all of the above

2 points Saved

QUESTION 8

Small motors for garden equipment is produced at 4 manufacturing facilities and needs to be shipped to 3 plants that produce different garden items (lawn mowers, rototillers, leaf blowers). The company wants to minimize the cost of transporting items between the facilities, taking into account the demand at the 3 different plants, and the supply at each manufacturing site. The table below shows the cost to ship one unit between each manufacturing facility and each plant, as well as the demand at each plant and the supply at each manufacturing facility. What is the demand constraint for plant B?

x 1B + x 2B +x 3B = 600

x B1 + x B2 +x B3 = 150

x 1B + x 2B +x 3B = 150

none of the above

2 points Saved

QUESTION 9

The production manager for the Softy soft drink company is considering the production of 2 kinds of soft drinks: regular and diet. Two of her resources are constraint production time (8 hours = 480 minutes per day) and syrup (1 of her ingredient) limited to 675 gallons per day. To produce a regular case requires 2 minutes and 5 gallons of syrup, while a diet case needs 4 minutes and 3 gallons of syrup. Profits for regular soft drink are \$3.00 per case and profits for diet soft drink are \$2.00 per case. What is the optimal daily profit?

\$220

\$420

\$320

\$280

2 points Saved

QUESTION 10

The owner of Black Angus Ranch is trying to determine the correct mix of two types of beef feed, A and B which cost 50 cents and 75 cents per pound, respectively. Five essential ingredients are contained in the feed, shown in the table below. The table also shows the minimum daily requirements of each ingredient.

Ingredient

Percent per pound in Feed A

Percent per pound in Feed B

Minimum daily requirement (pounds)

1

20

24

30

2

30

10

50

3

0

30

20

4

24

15

60

5

10

20

40

The constraint for ingredient 3 is:

.5A + .75B = 20

.3B = 20

.3 B≥ 20

.3B ≤ 20

2 points Saved

QUESTION 11

In a portfolio problem, X1, X2, and X3 represent the number of shares purchased of stocks 1, 2, an 3 which have selling prices of \$15, \$47.25, and \$110, respectively. The investor has up to \$50,000 to invest. The expected returns on investment of the three stocks are 6%, 8%, and 11%. An appropriate objective function is

MAX .06X1 +.08X2 +.11X3

MAX .06(15)X1 +.08(47.25)X2 +.11(110)X3

MAX 15X1 + 47.25X2 +.110X3

MAX (1/.06)X1 +.(1/08)X2 + (1/.11)X3

2 points Saved

QUESTION 12

If Xij = the production of product i in period j, write an expression to indicate that the limit on production of the company's 3 products in period 2 is equal to 400.

X21 + X22 + X23 ≥ 400

X21 + X22 + X23 ≤ 400

X12 + X22 + X32 ≥ 400

X12 + X22 + X32 ≤ 400

2 points Saved

QUESTION 13

The production manager for the Softy soft drink company is considering the production of 2 kinds of soft drinks: regular and diet. Two of her resources are production time (8 hours = 480 minutes per day) and syrup (1 of the ingredients) limited to 675 gallons per day. To produce a regular case requires 2 minutes and 5 gallons of syrup, while a diet case needs 4 minutes and 3 gallons of syrup. Profits for regular soft drink are \$3.00 per case and profits for diet soft drink are \$2.00 per case. What is the time constraint?

2R + 4D ≤ 480

2D + 4R ≤ 480

2R + 3D ≤ 480

3R + 2D ≤ 480

2 points Saved

QUESTION 14

A croissant shop produces 2 products: bear claws (B) and almond filled croissants (C). Each bear claw requires 6 ounces of flour, 1 ounce of yeast, and 2 TS of almond paste. An almond filled croissant requires 3 ounces of flour, 1 ounce of yeast, and 4 TS of almond paste. The company has 6600 ounces of flour, 1400 ounces of yeast, and 4800 TS of almond paste available for today's production run. Bear claw profits are 20 cents each, and almond filled croissant profits are 30 cents each. What is the optimal daily profit?

\$380

\$400

\$420

\$440

2 points Saved

QUESTION 15

The owner of Chips etc. produces 2 kinds of chips: Lime (L) and Vinegar (V). He has a limited amount of the 3 ingredients used to produce these chips available for his next production run: 4800 ounces of salt, 9600 ounces of flour, and 2000 ounces of herbs. A bag of Lime chips requires 2 ounces of salt, 6 ounces of flour, and 1 ounce of herbs to produce; while a bag of Vinegar chips requires 3 ounces of salt, 8 ounces of flour, and 2 ounces of herbs. Profits for a bag of Lime chips are \$0. 40, and for a bag of Vinegar chips \$0.50.

What is the constraint for salt?

6L + 8V ≤ 4800

1L + 2V ≤ 4800

3L + 2V ≤  4800

2L + 3V ≤  4800

2 points Saved

QUESTION 16

A systematic approach to model formulation is to first

construct the objective function

develop each constraint separately

define decision variables

all of the above

2 points Saved

QUESTION 17

Assume that x2, x7 and x8 are the dollars invested in three different common stocks from New York stock exchange. In order to diversify the investments, the investing company requires that no more than 60% of the dollars invested can be in "stock two". The constraint for this requirement can be written as:

.4x2 - .6x7 - .6x8 ≤ 0

x2 ≥ .60 (x2 + x7 + x8)

.4x2 - .6x7 - .6x8 ≥ 0

-.4x2 + .6x7 + .6x8 ≤ 0

2 points Saved

QUESTION 18

Balanced transportation problems have the following type of constraints:

?

?

=

all the above

2 points Saved

QUESTION 19

Quickbrush Paint Company makes a profit of \$2 per gallon on its oil-base paint and \$3 per gallon on its water-base paint. Both paints contain two ingredients, A and B. The oil-base paint contains 90 percent A and 10 percent B, whereas the water-base paint contains 30 percent A and 70 percent B. Quickbrush currently has 10,000 gallons of ingredient A and 5,000 gallons of ingredient B in inventory and cannot obtain more at this time. The company wishes to use linear programming to determine the appropriate mix of oil-base and water-base paint to produce to maximize its total profit. How many gallons of water based paint should the Quickbrush make? Note: Please express your answer as a whole number, rounding the nearest whole number, if appropriate.

2 points Saved

QUESTION 20

Kitty Kennels provides overnight lodging for a variety of pets. An attractive feature is the quality of care the pets receive, including well balanced nutrition. The kennel's cat food is made by mixing two types of  cat food to obtain the "nutritionally balanced cat diet." The data for the two cat foods are as follows:

Kitty Kennels wants to be sure that the cats receive at least 5 ounces of protein and at least 3 ounces of fat per day. What is the cost of this plan? Express your answer with two places to the right of the decimal point. For instance, \$9.32 (nine dollars and thirty-two cents) would be written as 9.32

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MAT540 Week 8 Quiz 4 2017
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• Submitted On 13 Mar, 2017 10:53:08
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Question QUESTION 1 When using a linear programming model to solve the "diet" problem, the objective is generally to maximize profit. True False 2 points Saved QUESTION 2 Fractional relationships between variables are permitted in the standard form of a linear program. True False 2 points Saved QUESTION 3 A constraint for a linear programming problem can never have a zero as its right-hand-side value. True False 2 points Saved QUESTION 4 A systematic approach to model formulation is to first construct the objective function before determining the decision variables. True False 2 points Saved QUESTION 5 In formulating a typical diet problem using a linear programming model, we would expect most of the constraints to be related to calories. True False 2 points Saved QUESTION 6 In a balanced transportation model, supply equals demand such that all constraints can be treated as equalities. True False 2 points Saved QUESTION 7 The following types of constraints are ones that might be found in linear programming formulations: 1. ≤ 2. = 3. > 1 and 2 2 and 3 1 and 3 all of the above 2 points Saved QUESTION 8 Small motors for garden equipment is produced at 4 manufacturing facilities and needs to be shipped to 3 plants that produce different garden items (lawn mowers, rototillers, leaf blowers). The company wants to minimize the cost of transporting items between the facilities, taking into account the demand at the 3 different plants, and the supply at each manufacturing site. The table below shows the cost to ship one unit between each manufacturing facility and each plant, as well as the demand at each plant and the supply at each manufacturing facility. What is the demand constraint for plant B? x 1B + x 2B +x 3B = 600 x B1 + x B2 +x B3 = 150 x 1B + x 2B +x 3B = 150 none of the above 2 points Saved QUESTION 9 The production manager for the Softy soft drink company is considering the production of 2 kinds of soft drink...
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